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α-catenin switches between a slip and an asymmetric catch bond with F-actin to cooperatively regulate cell junction fluidity

Claudia Arbore, Marios Sergides, Lucia Gardini, Giulio Bianchi, Anatolii V. Kashchuk, Irene Pertici, Pasquale Bianco, Francesco S. Pavone, Marco Capitanio

2022Nature Communications58 citationsDOIOpen Access PDF

Abstract

α-catenin is a crucial protein at cell junctions that provides connection between the actin cytoskeleton and the cell membrane. At adherens junctions (AJs), α-catenin forms heterodimers with β-catenin that are believed to resist force on F-actin. Outside AJs, α-catenin forms homodimers that regulates F-actin organization and directly connect the cell membrane to the actin cytoskeleton, but their mechanosensitive properties are inherently unknown. By using ultra-fast laser tweezers we found that a single α-β-catenin heterodimer does not resist force but instead slips along F-actin in the direction of force. Conversely, the action of 5 to 10 α-β-catenin heterodimers together with force applied toward F-actin pointed end engaged a molecular switch in α-catenin, which unfolded and strongly bound F-actin as a cooperative catch bond. Similarly, an α-catenin homodimer formed an asymmetric catch bond with F-actin triggered by protein unfolding under force. Our data suggest that α-catenin clustering together with intracellular tension engage a fluid-to-solid phase transition at the membrane-cytoskeleton interface.

Topics & Concepts

Cell biologyActinCateninChemistryBiologySignal transductionWnt signaling pathwayCellular Mechanics and InteractionsCellular transport and secretionWnt/β-catenin signaling in development and cancer
α-catenin switches between a slip and an asymmetric catch bond with F-actin to cooperatively regulate cell junction fluidity | Litcius